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The chapters of this book describe numerous successful examples of automation in microbiology, e.g., radiometric detection of bacteremia, instruments for detection of bacteriuria, machines for organism identification and susceptibility testing, and automated antigen and antibody measurement systems. In addition, there are discussions of exciting but not yet proven methodologies such as chromatography, flow cytometry, and other applications of radiometry. There are also important discussions regarding improved means of data communication and ways to improve the clinician�s use of test results. Lastly, there are candid assessments of the best and worst aspects of the current spectrum of automated instruments for microbiology. It is hoped that the reader of this volume will be left with a feeling of excitement at the possibilities that lie ahead for application of instrument techniques in the diagnosis of infectious diseases.

The chapters of this book describe numerous successful examples of automation in microbiology, e.g., radiometric detection of bacteremia, instruments for detection of bacteriuria, machines for organism identification and susceptibility testing, and automated antigen and antibody measurement systems. In addition, there are discussions of exciting but not yet proven methodologies such as chromatography, flow cytometry, and other applications of radiometry. There are also important discussions regarding improved means of data communication and ways to improve the clinician�s use of test results. Lastly, there are candid assessments of the best and worst aspects of the current spectrum of automated instruments for microbiology. It is hoped that the reader of this volume will be left with a feeling of excitement at the possibilities that lie ahead for application of instrument techniques in the diagnosis of infectious diseases.

The chapters of this book describe numerous successful examples of automation in microbiology, e.g., radiometric detection of bacteremia, instruments for detection of bacteriuria, machines for organism identification and susceptibility testing, and automated antigen and antibody measurement systems. In addition, there are discussions of exciting but not yet proven methodologies such as chromatography, flow cytometry, and other applications of radiometry. There are also important discussions regarding improved means of data communication and ways to improve the clinician�s use of test results. Lastly, there are candid assessments of the best and worst aspects of the current spectrum of automated instruments for microbiology. It is hoped that the reader of this volume will be left with a feeling of excitement at the possibilities that lie ahead for application of instrument techniques in the diagnosis of infectious diseases.

The chapters of this book describe numerous successful examples of automation in microbiology, e.g., radiometric detection of bacteremia, instruments for detection of bacteriuria, machines for organism identification and susceptibility testing, and automated antigen and antibody measurement systems. In addition, there are discussions of exciting but not yet proven methodologies such as chromatography, flow cytometry, and other applications of radiometry. There are also important discussions regarding improved means of data communication and ways to improve the clinician�s use of test results. Lastly, there are candid assessments of the best and worst aspects of the current spectrum of automated instruments for microbiology. It is hoped that the reader of this volume will be left with a feeling of excitement at the possibilities that lie ahead for application of instrument techniques in the diagnosis of infectious diseases.

The chapters of this book describe numerous successful examples of automation in microbiology, e.g., radiometric detection of bacteremia, instruments for detection of bacteriuria, machines for organism identification and susceptibility testing, and automated antigen and antibody measurement systems. In addition, there are discussions of exciting but not yet proven methodologies such as chromatography, flow cytometry, and other applications of radiometry. There are also important discussions regarding improved means of data communication and ways to improve the clinician�s use of test results. Lastly, there are candid assessments of the best and worst aspects of the current spectrum of automated instruments for microbiology. It is hoped that the reader of this volume will be left with a feeling of excitement at the possibilities that lie ahead for application of instrument techniques in the diagnosis of infectious diseases.

The chapters of this book describe numerous successful examples of automation in microbiology, e.g., radiometric detection of bacteremia, instruments for detection of bacteriuria, machines for organism identification and susceptibility testing, and automated antigen and antibody measurement systems. In addition, there are discussions of exciting but not yet proven methodologies such as chromatography, flow cytometry, and other applications of radiometry. There are also important discussions regarding improved means of data communication and ways to improve the clinician�s use of test results. Lastly, there are candid assessments of the best and worst aspects of the current spectrum of automated instruments for microbiology. It is hoped that the reader of this volume will be left with a feeling of excitement at the possibilities that lie ahead for application of instrument techniques in the diagnosis of infectious diseases.